New and Emerging Science and Technology (NEST) based innovations, e.g. in the field of Life Sciences or Nanotechnology, frequently raise societal and political concerns. To address these concerns NEST researchers are expected to deploy socially responsible R&D practices. This requires researchers to integrate social and ethical aspects (SEAs) in their daily work. Many methods can facilitate such integration. Still, why and how researchers should and could use SEAs remains largely unclear. In this paper we aim to relate (...) motivations for NEST researchers to include SEAs in their work, and the requirements to establish such integration from their perspectives, to existing approaches that can be used to establish integration of SEAs in the daily work of these NEST researchers. Based on our analyses, we argue that for the successful integration of SEAs in R&D practice, collaborative approaches between researchers and scholars from the social sciences and humanities seem the most successful. The only way to explore whether that is in fact the case, is by embarking on collaborative research endeavours. (shrink)

New and Emerging Science and Technology (NEST) based innovations, e.g. in the field of Life Sciences or Nanotechnology, frequently raise societal and political concerns. To address these concerns NEST researchers are expected to deploy socially responsible R&D practices. This requires researchers to integrate social and ethical aspects (SEAs) in their daily work. Many methods can facilitate such integration. Still, why and how researchers should and could use SEAs remains largely unclear. In this paper we aim to relate (...) motivations for NEST researchers to include SEAs in their work, and the requirements to establish such integration from their perspectives, to existing approaches that can be used to establish integration of SEAs in the daily work of these NEST researchers. Based on our analyses, we argue that for the successful integration of SEAs in R&D practice, collaborative approaches between researchers and scholars from the social sciences and humanities seem the most successful. The only way to explore whether that is in fact the case, is by embarking on collaborative research endeavours. (shrink)

This text provides an overview of debates in the sociology of technology, including definitions of the main terms and concepts and discussion of the dominant positions, especially in recent scholarship. At the same time, it develops a novel perspective on the subject based in critical theory, bridging work in the sociology of science and technology with wider debate in social theory. It integrates empirical and theoretical elements in well-themed chapters and draws on interesting contemporary examples such as (...) mobile phones and computer games to offer a distinctive sociological perspective on an important dimension of social life. (shrink)

This book provides a comprehensive introduction to the human, social and economic aspects of science and technology. It examines a broad range of issues from a variety of perspectives, using examples and experiences from Australia and around the world. The authors present complex issues in an accessible and engaging form. Topics include the responsibilities of scientists, ethical dilemmas and controversies, the Industrial Revolution, economic issues, public policy, and science and technology in developing countries. The book ends (...) with a thoughtful and provocative look towards the future. It includes extensive guides to further reading, as well as a useful section on information searching skills. This book will provoke, engage, inform and stimulate thoughtful discussion about culture, society and science. Broad and interdisciplinary, it will be of considerable value to students and teachers. (shrink)

Nanotechnology is an important platform technology which will add new features like improved biocompatibility, smaller size, and more sophisticated electronics to neuro-implants improving their therapeutic potential. Especially in view of possible advantages for patients, research and development of nanotechnologically improved neuro implants is a moral obligation. However, the development of brain implants by itself touches many ethical, social and legal issues, which also apply in a specific way to devices enabled or improved by nanotechnology. For researchers developing nanotechnology (...) such issues are rather distant from their daily work in the lab, but as soon as they use their materials or devices in medical applications such as therapy of brain diseases they have to be aware of and deal with them. This paper is intended to raise sensitivity for the ethical, legal and socialaspects (ELSA) involved in applying nanotechnology in brain implants or other devices by highlighting the short term problems of testing and clinical trials within the existing regulatory frameworks (A), the short and medium-term questions of risks in the application of the devices (B) and the long-term perspectives related to problems of enhancement (C). To identify and address such issues properly nanotechnologists should involve ethical, legal and social experts and regulatory bodies in their research as early as possible. This will help to remove pressure from regulatory bodies, to settle public concern and to prevent non-acceptable developments for the benefit of the patients. (shrink)

“HTA is a multidisciplinary process that summarizes information about the medical, social, economic and ethical issues related to the use of a health technology in a systematic, transparent, unbiased, robust manner. Its aim is to inform the formulation of safe, effective, health policies that are patient focused, and seek to achieve best value” (EUnetHTA 2007). Even though the assessment of ethical aspects of a health technology is listed as one of the objectives of a HTA process, (...) in practice, the integration of these dimensions into reports remains limited. The article is focused on four points: 1. the HTA concept; 2. the difficult HTA-ethics relationship; 3. the ethical issues in HTA; 4. the methods for integrating ethical analysis into HTA. (shrink)

Holding the promise of both emancipation and oppression, technology at once terrifies and disturbs the social order. Its dazzles, seduces, yet it also unsettles and raises the specter of the loss of human values and our replacement by machines and silicon. In Living with Technology , Hans Oberdiek and Mary Tiles explore the cultural and philosophical tensions shrouding technology and its place in society. Examing the relationship between instrumental reason and technology, fact and value, efficient (...) and responsibility, Oberdiek and Tiles employ an accessibile and philosophical methodology to assess the embeddness of technology in daily life. Investigating such aspects of technology as its transfer to third world nations and the genetic development of seeds, Oberdiek and Tiles give the strictly practical a compellingly philosophical look--analyzing why, in fact, the West often uses technology to do rather stupid things in rather clever ways. (shrink)

To design effective and socially sensitive systems, engineers must be able to integrate a technology-based approach to engineering problems with concerns for social impact and the context of use. The conventional approach to engineering education is largely technology-based, and even when additional courses with a social orientation are added, engineering graduates are often not well prepared to design user- and context-sensitive systems. Using data from interviews with three engineering students who had significant exposure to a socially-oriented (...) perspective on production systems design, this paper argues that engineering students may have difficulty integrating in their own practice the technology-based and the socially-oriented perspectives on production. To enhance engineering students' ability to create systems that integrate both perspectives, and to relieve the intense cognitive and emotional pain that can be experienced by students exposed to both perspectives but unable to reconcile them, this paper reinforces the importance of teaching students the meta skill, design. A design perspective can help students integrate varied, sometimes conflicting, perspectives, and reach beyond customer-defined constraints to consider workplace and social impact. (shrink)

The prehistory of science and technology studies -- The Kuhnian revolution -- Questioning functionalism in the sociology of science -- Stratification and discrimination -- The strong programme and the sociology of knowledge -- The social construction of scientific and technical realities -- Feminist epistemologies of science -- Actor-network theory -- Two questions concerning technology -- Studying laboratories -- Controversies -- Standardization and objectivity -- Rhetoric and discourse -- The unnaturalness of science and technology -- The public (...) understanding of science -- Expertise and public participation -- Political economies of knowledge. (shrink)

Thoroughly revised, this new edition of Critical Theory of Technology rethinks the relationships between technology, rationality, and democracy, arguing that the degradation of labor--as well as of many environmental, educational, and political systems--is rooted in the social values that preside over technological development. It contains materials on political theory, but the emphasis has shifted to reflect a growing interest in the fields of technology and cultural studies.

This thoughtful and engaging text challenges the widely held notion of science as somehow outside of society, and the idea that technology proceeds automatically down a singular and inevitable path. Through specific case studies involving contemporary debates, this book shows that science and technology are fundamentally part of society and are shaped by it. Draws on concepts from political sociology, organizational analysis, and contemporary social theory. Avoids dense theoretical debate. Includes case studies and concluding chapter summaries for (...) students and scholars. (shrink)

In Search Of An Integrative Vision For Technology will stimulate its readers to consider the 'whole story that is information systems' within the context of an integrative vision of technology. It integrates disparate areas of debate and research while appreciating the contribution that philosophy can make to such thinking. It is deliberately broad in coverage, and designed to provide useful pointers so that researchers, students, practitioners, and developers can easily apply each point as needed. "Human issues of (...) class='Hi'>technology and their normative aspects" is a theme that runs throughout the entire book. The integrative vision is centered on an understanding of human practice — the twin notions of structure and direction, and the leading and the founding functions of such practice. While this understanding applies to all technologies, it is worked out in more detail for information technology. From this philosophical understanding, many interdisciplinary areas of interest are identified. (shrink)

Technology, in its current usage, can most simply be understood to have three components: artifacts, practices, and knowledge. Artifacts are the material objects that exist in the world. Practices are the methods and techniques used to interact with artifacts and knowledge represents the underlying theoretical and conceptual paradigms that influence technology in different cultural contexts. Using these components as the framework, this four volume major work traces the intellectual, scholarly, and public evolution of technology studies and ultimately (...) questions whether technologies are truly autonomous within the societies they inhabit and whether or not technological changes drive social changes. Rayvon David Fouché presents the evolving conceptualizations of technology to understand the ways in which technology has shaped global society. Technology Studies is part of the ‘Key Issues for the 21st Century’ series published by SAGE which brings together collections on those critical issues that will shape our future. This four-volume set covers: Volume 1: Conceptualizing Technology Volume 2: Theorizing Technological Change Volume 3: Politics of Technology Volume 4: Technology and Culture. (shrink)

Science, Technology and Society: A Sociological Approach is a comprehensive guide to the emergent field of science, technology, and society (STS) studies and its implications for today’s culture and society. Discusses current STS topics, research tools, and theories Tackles some of the most urgent issues in current STS studies, including power and culture, race, gender, colonialism, the Internet, cyborgs and robots, and biotechnology Includes case studies, a glossary, and further reading lists.

Can we use technology in the pursuit of a good life, or are we doomed to having our lives organized and our priorities set by the demands of machines and systems? How can philosophy help us to make technology a servant rather than a master? Technology and the Good Life? uses a careful collective analysis of Albert Borgmann's controversial and influential ideas as a jumping-off point from which to address questions such as these about the role and (...) significance of technology in our lives. Contributors both sympathetic and critical examine Borgmann's work, especially his "device paradigm" apply his theories to new areas such as film, agriculture, design, and ecological restoration and consider the place of his thought within philosophy and technology studies more generally. Because this collection carefully investigates the issues at the heart of how we can take charge of life with technology, it will be a landmark work not just for philosophers of technology but for students and scholars in the many disciplines concerned with science and technology studies. (shrink)

"More than any thing else technology creates our world. It creates our wealth, our economy, our very way of being," says W. Brian Arthur. Yet, until now the major questions of technology have gone unanswered. Where do new technologies come from -- how exactly does invention work? What constitutes innovation, and how is it achieved? Why are certain regions -- Cambridge, England, in the 1920s and Silicon Valley today -- hotbeds of innovation, while others languish? Does technology, (...) like biological life, evolve? How do new industries, and the economy itself, emerge from technologies? In this groundbreaking work, pioneering technology thinker and economist W. Brian Arthur sets forth a boldly original way of thinking about technology that gives answers to these questions. The Nature of Technology is an elegant and powerful theory of technology's origins and evolution. It achieves for the progress of technology what Thomas Kuhn's The Structure of Scientific Revolutions did for scientific progress. Arthur explains how transformative new technologies arise and how innovation really works. Conventional thinking ascribes the invention of technologies to "thinking outside the box," or vaguely to genius or creativity, but Arthur shows that such explanations are inadequate. Rather, technologies are put together from pieces -- themselves technologies -- that already exist. Technologies therefore share common ancestries and combine, morph, and combine again to create further technologies. Technology evolves much as a coral reef builds itself from activities of small organisms -- it creates itself from itself; all technologies are descended from earlier technologies. Drawing on a wealth of examples, from historical inventions to the high-tech wonders of today, and writing in wonder fully engaging and clear prose, Arthur takes us on a mind-opening journey that will change the way we think about technology and how it structures our lives. (shrink)

This paper looks beyond the mostly technical and business issues that currently inform the design of knowledge-based systems (e.g., expert systems) to point out that there is also a social and organisational (a socio-organisational) dimension to the issues affecting the design decisions of expert systems and other information technologies. It argues that whilst technical and business issues are considered before the design of Expert Systems, that socio-organisational issues determine the acceptance and long-run utility of the technology after it (...) has been implemented. It shows how four issues within the organisation can affect the design or the after-effects of the design and implementation of the technology. It also shows how the four issues can be considered within the structured phases of expert system development. (shrink)

Ethics is ordinarily understood as being concerned with questions of responsibility for and in the face of an other. This other is more often than not conceived of as another human being and, as such, necessarily excludes others – most notably animals and machines. This essay examines the ethics of such exclusivity. It is divided into three parts. The first part investigates the exclusive anthropocentrism of traditional forms of moral␣thinking and, following the example of recent innovations in animal rights philosophy, (...) questions the mechanisms of such exclusion. Although recent work in animal- and bio-ethics has successfully implemented strategies for the inclusion of the animal as a legitimate subject of moral consideration, its other, the machine, has remained conspicuously excluded. The second part looks at recent attempts to include these machinic others in moral thinking and critiques the assumptions, values, and strategies that have been employed by these various innovations. And the third part proposes a means for thinking otherwise. That is, it introduces an alternative way to consider these other forms of otherness that is not simply reducible to the conceptual order that has structured and limited moral philosophy’s own concern with and for others. (shrink)